Time evolution and squeezing of the field amplitude in cavity QED

Brecha; Carmichael; Carmichael; Carmichael; Clemens; Doherty; Foster; Foster; H. J. Carmichael; Hope; J. E. Reiner; Jaynes; Kimble; L. A. Orozco; Lax; Lax; Loudon; Mielke; Orozco; P. R. Rice; Plenio; Raizen; Reid; Reid; Rempe; Rice; W. P. Smith; Wiseman

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Time evolution and squeezing of the field amplitude in cavity QED

Authors: Brecha
Carmichael
Carmichael
Carmichael
Clemens
Doherty
Foster
Foster
H. J. Carmichael
Hope
J. E. Reiner
Jaynes
Kimble
L. A. Orozco
Lax
Lax
Loudon
Mielke
Orozco
P. R. Rice
Plenio
Raizen
Reid
Reid
Rempe
Rice
W. P. Smith
Wiseman
Publication date: 18 December 2000
Publisher: 'The Optical Society'
Doi

Abstract

We present the conditional time evolution of the electromagnetic field produced by a cavity QED system in the strongly coupled regime. We obtain the conditional evolution through a wave-particle correlation function that measures the time evolution of the field after the detection of a photon. A connection exists between this correlation function and the spectrum of squeezing which permits the study of squeezed states in the time domain. We calculate the spectrum of squeezing from the master equation for the reduced density matrix using both the quantum regression theorem and quantum trajectories. Our calculations not only show that spontaneous emission degrades the squeezing signal, but they also point to the dynamical processes that cause this degradation.Comment: 12 pages. Submitted to JOSA

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